DE1170260B - Hydraulic two-pipe telescopic damper, especially for motor vehicles - Google Patents

Description

Hydraulic two-tube telescopic damper, in particular for motor vehicles The invention relates to a hydraulic twin-tube telescopic damper, in particular for motor vehicles, with a piston rod protruding upwards and with one as a compensation chamber serving, partially filled with air compensation annulus between the outer tube and the working cylinder tube, the upper end of which is different from the one with the vents provided, with a cylindrical extension protruding into the working cylinder tube upper Cylinder cover is held in the axial direction and centrically, taking for the elimination of air from the working chambers, one from the working cylinder inner jacket and one Annular cavity of the cylinder cover formed annular cavity is provided on the one hand with the upper working chamber of the working cylinder and on the other hand with the compensation annulus is in communication.

In such a known two-tube telescopic damper is located Cylindrical approach of the cylinder cover not on the inner surface of the working cylinder tube on, but forms with this one immediately over the entire circumference in the ring-shaped. Annular gap passing over the cavity. The cavity also has the return channel for the leakage oil passing through the piston rod guide connection to the compensation ring space. In this way, air bubbles are eliminated well, but the venting device also allows a significant amount of space to pass through, so that for the shielding of the oil jet an intermediate tube in the compensation annulus with a narrow gap around the working cylinder tube is lying around. This makes the construction of the damper cumbersome, as well as the damping the rebound stage and the compression stage through this constantly open, relatively large passage adversely affected.

It is also known to have a vent for two-tube telescopic dampers of the working cylinder through connecting channels that lead from the oil chamber of the Lead working cylinder directly into the compensation annulus by, for example, the Front face of the working cylinder tube with radial grooves or with serration is provided. In another known embodiment is between the end face of the cylinder tube and the cylinder cover one provided with slot-like recesses Arranged washer, the recesses represent the connecting channels.

The cross-section of such ventilation ducts must be dimensioned so that on the one hand it allows the escape of air from the working cylinder, which has accumulated there due to any circumstances, into the compensation annulus without significant resistance, but on the other hand it offers considerable resistance to the passage of oil. As such, the task of the ventilation ducts is fulfilled as soon as the air has been eliminated from the oil chamber of the working cylinder. Then it must be accepted that an oil jet passes through the channels into the annular space. The greater the resistance of the damper in the rebound stage, the faster this oil jet shoots into the annulus. In the case of the known designs without an additional intermediate pipe, there is the disadvantage that when the oil jet emerges into the annular space, foam is produced in that the oil mixes with the air in the annular space. If the resulting foam does not settle, but completely fills the annulus over time, it is sucked through the bottom valve into the working cylinder, which ultimately has a strong impact on the function of the damper.

The object of the invention is to prevent foam formation using simple means. The solution to the problem is that one or more connecting channels, which are provided in the outer jacket of the cylindrical extension of the cylinder cover resting on the working cylinder tube and lead from the upper working chamber into the annular cavity, are arranged offset to other channels in the abutting end faces of the working cylinder tube and the cylinder cover are provided and lead into the compensating annulus, these connections being the only ones between the annular cavity and the upper working chamber or the compensating annulus and the annular cavity is dimensioned in its radial cross-section such that it is the Du: -jlist, -öi-rien of oil opposed considerable resistance.

In this way a calming of the air resp. Oil jet reached, by first getting out of the working cylinder into the cavity and in this is swirled and only then through the offset groove as a calm jet into the Annular space crosses. By deflecting the beam several times, it becomes essential at the same time more energy is destroyed than with the known designs, so that the beam with passes into the annulus at a lower speed. When trying this has Effect fully confirmed. While with direct connection channels and corresponding Working conditions the foaming was observed, foaming did not occur more one as soon as the connecting channels are arranged offset in the manner described became. In experiments in which foam is generated artificially in the working cylinder even defoaming occurred.

Known two-tube telescopic vibration damper with connecting channels between the working space and the cavity on the one hand and the cavity and the reserve ring space on the other hand, could not serve as a suggestion for solving the problem of the invention. One works differently from the subject of the invention according to the direct current principle, so that the full amount of liquid displaced by the piston on the working stroke through the annular cavity must flow. Another leaves through the cavity on Cylinder cover a relatively large proportion of liquid constantly pass through the constant circulation to improve the liquid cooling. Both known Damper is thus proceeded contrary to the subject matter of the invention.

The drawing shows an embodiment of the two-tube telescopic damper according to the invention, namely in Ab b. 1 shows a longitudinal section through the entire damper, A b b. 2 the upper end of the working cylinder tube with a ventilation groove, Ab b. 3 the damper when installed at an angle.

The valved 1, 2 piston 3 at the end of the piston rod 4 slides in the working cylinder tube 5. The piston rod 4 is guided in the cylinder cover 6 and is sealed and bears at its upper end a Befestigungsbse 7. Other well-known parts are of the valve plate 8 with the Valves 9 and 10 at the lower end of the working cylinder tube 5, the outer tube 11, the lower base 12 with a fastening eyelet 13. The upper end 14 of the working cylinder tube 5 is at its end face 15 from the cylinder cover 6 in the axial direction and through its cylindrical extension 16, which protrudes into the working cylinder tube, held centrally. The ZY relieving cover 6 is provided at its transition to the cylindrical extension 16, which forms on the Stirntläche 15 of the cylinder tube 5 lying Stirrifläche an annular groove 17 together with the inner surface of the cylinder tube 5, an annular cavity 18th A connection channel 19 incorporated in the outer jacket of the cylindrical extension 16 ', which rests on the inner jacket of the working cylinder tube 5 , leads from the upper working chamber 20 of the cylinder space into the cavity 18 between the annular cavity 18 and the usual compensating annular space 22 enclosed by the outer tube 11. The connecting channel 21 is in A b b. 1 through a groove in the end face of the cylinder cover 6, the connecting channel 21 a in A b b. 2 formed by a groove in the end face 1.5 of the working cylinder tube 5 a . In Ab b. 3 shows a damper in an inclined installation position. In this mounting position, it is necessary that one of the leading out of the upper working chamber 20 connecting passages 19 a at the highest point is located, so that the in the bag 23 that collects air from the working chamber 20 a is discharged to the cavity 18 a. Preferably, two opposite connecting channels 19 a and 19 b are arranged, which are arranged in a plane with the fastening eyelet 13 a, so that when the installation position is rotated by 180 ' , a connecting channel, namely the connecting channel 19 b, is at the highest point.

The example is intended in particular to show that the effort for venting can be kept very low if the connecting channels 19 and 21 are produced in a simple manner with an embossing die.

Claim 2 is a real sub-claim and only applies in conjunction with Claim 1.

Claims (2)

Claims: 1. Hydraulic two-tube telescopic damper, especially for motor vehicles, with a piston rod protruding upwards and with a compensating ring space that serves as a compensating chamber and is partially filled with air between the outer tube and the working cylinder tube, the upper end of which is from the one provided with ventilation devices with a cylindrical attachment The upper cylinder cover protruding into the working cylinder tube is held in the axial direction and centrically, with an annular cavity formed by the working cylinder inner jacket and an annular groove of the cylinder cover being provided for the excretion of air from the working chambers, which is provided on the one hand with the upper working chamber of the working cylinder and on the other hand is in communication with the compensating annulus, characterized in that one or more connecting channels (19, 19a, 19b) in the outer jacket of the cylindrical extension (16) of the cylinder cover (6) lying against the working cylinder tube (5) and lead from the upper working chamber (20, 20a) into the annular cavity (18, 18a), offset to further channels (21, 21a) which are located in the abutting end faces of the working cylinder tube (5) and the cylinder cover (6 ) are provided and lead into the compensating annulus (22), these connections being the only ones between the annular cavity (18) and the upper working chamber (20, 20a) or the compensating annulus (22) and the annular cavity (18, 18a) is dimensioned in its radial cross-section such that it opposes considerable resistance to the flow of oil. 2. Telescopic damper according to claim 1, characterized in that in a known manner two diametrically opposed connecting channels (19 a, 19 b) from the upper working chamber (20 a) of the working cylinder in the annular cavity (18 a) lead into a certain plane to the fastening element of the telescopic damper. Documents considered: French Patent Nos. 1081 491, 1093 996, 1 122 347; British Patent No. 458,311; USA. Patents Nr.- 2,036,955, 2,237,915, 2,324,058, 2,395,027, 2,818,142.